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Nutritional Neuroscience
An International Journal on Nutrition, Diet and Nervous System
Volume 2, 1999 - Issue 6
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Original Articles

Corticotropin Releasing Hormone and Body Weight Regulation: The Behavioral Approach

M. CabanacDépartement de physiologie, Faculté de médecine, Université Laval, Québec, G1K 7P4CanadaCorrespondence[email protected]
,
C. MichelDépartement de physiologie, Faculté de médecine, Université Laval, Québec, G1K 7P4Canada
&
C. GosselinDépartement de physiologie, Faculté de médecine, Université Laval, Québec, G1K 7P4Canada
Pages 385-401 | Received 22 Apr 1999, Published online: 13 Jul 2016

References

  • Aguilera, G. (1998). Corticotropin releasing hormone, receptor regulation and the stress response. TEM 9, 329–336.
  • Alexander, S.L., Irvine, C.H.G. and Donald, R.A. (1996). Dynamics of the regulation of the hypothalamo-pituitary-adrenal (HPA) axis determined using a nonsurgical method for collecting pituitary venous blood from horses. Front Neuroendocrinology 17, 1–50.
  • Allars, J., Holt, S.J. and York, D.A. (1987). Energetic efficiency and brown adipose tissue uncoupling protein of obese Zucker rats fed high carbohydrate and high fat diets: effect of adrenalectomy. International Journal of Obesity 11, 591–602.
  • Alonso, G., Sigud, P. and Assenmacher, I. (1988). Immuno-cytochemical ultra-structural study of hypothalamic neurons containing corticotropin-releasing factor in normal and adrenalectomized rats. Neuroscience 24, 553–565.
  • Appel, N., Owens, M.J., Culp, S., Zaczek, R., Contrera, J.E., Bissette, G., Nemeroff, C.B. and Souza, E.B.D. (1991). Role for brain corticotropin-releasing factor in the weight-reducing effects of chronic fenfluramine treatment in rats. Endocrinology 128, 3237–3246.
  • Arase, K., York, D.A., Shimizu, H., Shargill, N. and Bray, G.A. (1988). Effects of corticotrophin-releasing factor on food intake and brown adipose tissue thermogenesis in rats. American Journal of Physiology 255, E255–E259.
  • Arase, N., Owens, M.J., Culp, S., Zaczek, R., Contrera, J.E., Bissette, G., Nemeroff, C.B. and Souza, E.B.D. (1991). Role for brain corticotropin-releasing factor in the weight reducing effects of chronic fenfluramine treatment in rats. Endocrinology 128, 3237–3246.
  • Aubert, A., Kelley, K.W. and Dantzer, R. (1997). Differential effect of lipopolysaccharide on food hoarding behavior and food consumption in rats. Brain Behavior and Immunity 11, 229–238.
  • Balligand, J.L., Brichard, S.M., Brichard, V., Desager, J.P. and Lambert, M. (1990). Hypoleptinemia in patients with anorexia nervosa: loss of circadian rythm and unresponsiveness to short-term refeeding. European Journal of Endocrinology 138, 415–420.
  • Bjöntorp, P. (1991). Adipose tissue distribution and function. International Journal of Obesity 15(Suppl.), 67–81.
  • Bluthé, R.M., Danzer, R. and Kelley, K.W. (1989). CRF is not involved in the behavioral effects of peripherally injected interleukin-1 in the rat. Neuroscience Research and Communications 5, 149–154.
  • Bray, G.A., Fisler, J. and York, D.A. (1990). Neuroendocrine control of the development of obesity: understanding gained from studies of experimental animal models. Front Neuroendocrinology 11, 128–181.
  • Bray, G.A. and York, D.A. (1979). Hypothalamic and geneti cobesity in experimental animals: an autonomic and endocrine hypothesis. Physiological Reviews 59, 719–809.
  • Britton, D.R., Koob, G.F., Rivier, J. and Vale, W. (1982). Intraventricular corticotropin releasing factor enhances behavioral effects of novelty. Life Sciences 31, 363–367.
  • Brown, M., Fisher, L.A., Speiss, J., Rivier, C., Rivier, J. and Vale, J. (1982). CRF actions on the sympathetic nervous system and metabolism. Endocrinology 111, 928–931.
  • Bruce, B.K., King, B.M., Phelps, G.R. and Veitia, M.C. (1982). Effects of adrenalectomy and corticosterone administration on hypothalamic obesity in rats. American Journal of Physiology 243, E152–E157.
  • Cabanac, M. (1991). Open-loop methods for studying the ponderostat. In M.I. Friedman, M.G. Tordoff and M.R. Kare (Eds.), Appetite and Nutrition (pp. 149–170). New York: Marsel Dekker Inc.
  • Cabanac, M., Dagnault, A. and Richard, D. (1997). The food-hoarding threshold is not raised by acute intraventricular NPY in male rats. Physiology and Behavior 61, 131–135.
  • Cabanac, M., Duclaux, R. and Spector, N.H. (1971). Sensory feedbacks in regulation of body weight: is there a ponderostat? Nature 229, 125–127.
  • Cabanac, M. and Gosselin, C. (1996). Ponderostat: hoarding behavior satisfies the condition for a lipostat in the rat. Appetite 27, 251–261.
  • Cabanac, M. and Morrissette, J. (1992). Acute, but not chronic exercise lowers the body weight set-point in male rats. Physiology and Behavior 52, 1173–1177.
  • Cabanac, M. and Richard, D. (1995). Acute intra-ventricular CRF lowers the hoarding threshold in male rats. Physiology and Behavior 57, 705–710.
  • Cabanac, M. and Richard, D. (1996). The nature of the ponderostat: Hervey's hypothesis revived. Appetite 26, 45–54.
  • Cabanac, M. and Swiergel, A.H. (1989). Rats eating and hoarding as a function of body weight and cost of foraging. American Journal of Physiology 257, R952–R957.
  • Cavagnini, F., Invitti, C, Passamonti, M. and Polli, E.E. (1986). Impaired ACTH and cortisol response to CRH in patients with anorexia nervosa. In E. Ferrari and P. Brambilla (Eds.), Disorders of Eating Behaviour, a Psychoneuroendocrine Approach (pp. 229–233). Oxford: Pergamon Press.
  • Cole, B.J., Cador, M., Stinus, L., Rivier, J., Vale, W., Koob, G.F. and LeMoal, M. (1990). Central administration of a CRF antagonist blocks the development of stress-induced behavioral sensitization. Brain Research 512, 343–346.
  • Costa, A., Poma, A., Martignoni, E., Nappi, G., Ur, E. and Grossman, A. (1997). Stimulation of cortico-releasing hormone release by the obese (ob) gene product, leptin, from hypothalamus expiants. Neuroendocrinology 8, 1131–1134.
  • Cunningham, J.J., Calles-Escandon, J., Garrido, F., Carr, D.B. and Bode, H.H. (1986). Hypercorticosteronuria and diminished pituitary responsiveness to corticotropin-releasing factor in obese Zucker rats. Endocrinology 118, 98–101.
  • Dagnault, A. and Richard, D. (1997). Involvement of the medical preoptic area in the anorectic action of estrogens. American Journal of Physiology 272, R311–R317.
  • Dallman, M.F., Akana, S.F., Bradbury, M.J., Strack, A.M., Simon-Hauson, E. and Scribner, K.A. (1994). Regulation of the hypothalamo-pituitary-adrenal axis during stress: feedback, facilitation and feeding. Seminars in Neuroscience 6, 205–213.
  • Dantzer, R. (1981). Le stress des animaux d'élevage. La Recherche 120, 280–289.
  • Dantzer, R. (1989). The Psychomatic Delusion: Why the Mind is not the Source of all our IIIs. New York: The Free Press.
  • Dantzer, R. and Kelley, K.W. (1989). Stress and immunity: an integrated view of relationship between the brain and the immune system. Life Sciences 44, 1995–2008.
  • Debons, A.F., Zurek, L.D., Tse, C.S. and Abrahamsen, S. (1986). Central nervous system control of hyperphagia in hypothalamic obesity: dependence on adrenal glucocorticoids. Endocrinology 118, 1678–1681.
  • Deshaies, Y., Dagnault, A., Lalonde, J. and Richard, D. (1997). Interaction of corticosterone and gonadal steroids on lipid deposition in the female rat. American Journal of Physiology 273, E355–E362.
  • DeVos, P, Saladin, R., Auwerx, J. and Staels, B. (1995). Induction of ob gene expression by corticosteroids is accompanied by body weight loss and reduced food intake. Journal of biological Chemistry 270, 15958–15961.
  • Dinarello, C. (1984). Interleukin-1. Reviews of Infectious Diseases 6, 51–95.
  • Dunn, A.J., Antoon, M. and Chapman, Y. (1991). Reduction of exploratory behavior by intraperiteoneal injection of interleukin-1 involves brain corticotropin-releasing factor. Brain Research Bulletin 26, 539–542.
  • Eckland, D.J.A., Harbuz, M.S., Jessop, D.S. and Lightman, S.F. (1991). CRF and AVP in the hypothalamo-hypophyseal portal blood of rats following high-dose glucocorticoid treatment withdrawal. Brain Research 568, 311–313.
  • Egawa, M., Yoshimatsu, H. and Bray, G.A. (1990). Preoptic area injection of corticotropin-releasing hormone stimulates sympathetic activity. American Journal of Physiology 59, R799–R806.
  • Erkut, Z.A., Pool, C. and Swaab, D.F. (1998). Glucocorticoids suppress corticotropin-releasing hormone and vasopressin expression in human hypothalamic neurons. Journal of Clinical Endocrinology and Metabolism 83, 2066–2073.
  • Espat, N.J., Auffenberg, T., Rogy, M., Martin, D., Fang, C.H., Hesselgren, P.O., Copeland, E.M. and Moldawer, L.L. (1996). Ciliary neurotropic factor is catabolic and shares with IL-6 the capacity to induce an acute phase response. American Journal of Physiology 271, R185–R190.
  • Fantino, M. and Brinnel, H. (1986). Body weight set-point changes during the ovarian cycle: experimental study of rats during hoarding behavior. Physiology and Behavior 36, 991–996.
  • Fantino, M. and Cabanac, M. (1980). Body weight regulation with a proportional hoarding response in the rat. Physiology and Behavior 24, 939–942.
  • Fantino, M., Faion, F. and Rolland, Y. (1986). Effect of dexfenfluramine on body weight set-point: study in the rat with hoarding behaviour. Appetite 7(Suppl.), 115–126.
  • Figlewicz, D.P., Schwartz, M.W., Seeley, R.J., Chavez, M., Baskin, D.G., Woods, S.C. and Porte, D. (1996). Endocrine regulation of food intake and body weight. Journal of Laboratory and Clinical Medicine 127, 328–332.
  • Fink, G., Robinson, I.C.A.F. and Tannahill, L.A. (1988). Effects of adrenalectomy and glucocorticoids on the peptide CRF-41, AVP and oxytocin in rat hypophysial portal blood. Journal of Physiology London 401, 329–345.
  • Freedman, M.R., Castonguay, T.W. and Stern, J.S. (1985). Effect of adrenalectomy and corticosterone replacement on meal pattern of Zucker rats. American Journal of Physiology 249, R584–R594.
  • Fuller, R.W., Snoddy, H.D. and Clemens, J.A. (1981). Elevation by fenfluramine of 3,4-dihydroxyphenylacetic acid in the brain and of corticosterone and prolactin in serum of fenfluramine-pretreated rats. Pharmacological Research and Communications 13, 275–280.
  • Gosnell, B.A., Morley, J.E. and Levine, A.S. (1983). Adrenal modulation of the inhibitory effect of corticotropin releasing factor on feeding. Peptides 4, 807–812.
  • Gosselin, C. and Cabanac, M. (1997). Adrenalectomy lowers the body weight set-point in rats. Physiology and Behavior 62, 519–523.
  • Grasa, M.M., Cabot, C., Adan, C., Villa, R., Esteve, M., Estruch, J., FernandezLopez, J.A., Remesar, X. and Alemany, M. (1998). Effect of adrenalectomy on the slimming activity of liposome-carried oleoyl-estrone in the rat. International Journal of Obesity 22, 1225–1230.
  • Green, P.K., Wilkinson, C.W. and Woods, S.C. (1992). Intraventricular corticosterone increases the rate of body weight gain in underweight adrenalectomized rats. Endocrinology 130, 269–275.
  • Gross, M.J., Kahn, J.P., Laxenaire, M., Nicolas, J.P. and Burlet, C. (1994). Système corticolibérinergique et anorexie mentale: réactivations du système hypothalamo-hypophyso-corticosurrénalien à un stress neurotrope. Annales d'Endocrinologie 55, 221–228.
  • Grunt, J.A. (1964). Effects of adrenalectomy and gonadectomy on growth and development in the rat. Endocrinology 75, 446–451.
  • Gué, M., Junien, J.L. and Buéeno, L. (1991). Conditioned emotional response in rats enhances colonic motility through the central release of corticotropin-releasing factor. Gastroenterology 100, 964–970.
  • Harris, R.B.S., Zhou, J., Youngblood, B.D., Smagin, G.N. and Ryan, D.H. (1997). Failure to change exploration or saccharin preference in rats exposed to chronic mild stress. Physiology and Behavior 63, 91–100.
  • Hellerstein, M.K., Meydani, S.N., Meydani, M., Wu, K. and Dinarello, C.A. (1989). Interleukin-1 induced anorexia in the rat. Influence of prostaglandins. Journal of Clinical Investigations 84, 228–235.
  • Henderson, J.T., Senuik, N.A., Richardson, P.M., Gauldie, J. and Roder, J.C. (1994). Systemic administration of ciliary neurotropic factor induced cachexia in rodents. Journal of Clinical Investigations 93, 1632–1638.
  • Herberg, L.J., Pye, J.G. and Blundell, J.E. (1970). Non-interaction of ventromedial and lateral hypothalamic mechanisms in the regulation of feeding and hoarding behavior in the rat. Quarterly Journal of experimental Psychology 22, 133–141.
  • Hervey, G.R. (1969). Regulation of energy balance. Nature 223, 629–631.
  • Heymann-Mönnikes, I., Taché, Y., Trauner, M., Weiner, H. and Garrick, T. (1991). CRF microinjected into dorsal vagal complex inhibits TRH analog- and kianic acid-stimulated gastric contractility in rats. Brain Research 554, 139–144.
  • Huang, Q.L., Rivest, R. and Richard, D. (1998). Effects of leptin on corticotropin-releasing factor (CRF) synthesis and CRF neuron activation in the paraventricular hypothalamic nucleus of obese (ob/ob) mice. Endocrinology 139, 1524–1532.
  • Imaki, T., Xiao-Quan, W., Shibasaki, T., Yamada, K., Harada, S., Chikada, N., Naruse, M. and Demura, H. (1995). Stress-induced activation of neuronal activity and CRF gene expression in the PVN is modulated by glucocorticoids in rats. Journal of Clinical Investigation 96, 231–238.
  • Kaiyala, K.J., Woods, S.C. and Schwartz, M.W. (1995). New model for the regulation of energy balance and adiposity by the central nervous system. American Journal of Clinical Nutrition 62(Suppl.), 1123S–1134S.
  • Keesey, R.E. (1988). The relation between energy expenditure and the body weight set-point: its significance to obesity. In B.C. Burrows (Ed.), Handbook of Eating Disorders (Vol. Part 2). New York: Elsevier.
  • Kissileff, H.R., Pi-Sunyer, F.X., Segal, K., Meltzer, S. and Foelsch, P.A. (1990). Acute effects of exercise on food intake in obese and nonobese women. American Jounal of Clinical Nutrition 52, 240–245.
  • Koenig, J.I., Meltzer, H.Y., Devane, G.D. and Gudelsky, G.A.(1986). The concentration of arginine vasopressin in pituitary stalk plasma of the rat after adrenalectomy of morphine. Endocrinology 118, 2534–2539.
  • Koob, G.F. and Bloom, F.E. (1985). Corticotrophin-releasing factor and behavior. Federation Proceedings 44, 259–263.
  • Krahn, D.D., Gosnell, B.A., Crane, M. and Levine, A.S. (1986). CRF antagonist partially reverses CRF and stress induced effects on feeding. Brain Research Bulletin 7, 285–289.
  • Lamberts, S.W. and Birkenhager, J.C. (1976). Body composition in Cushing's disease. Journal of Clinical Endocrinology and Metabolism 42, 864–868.
  • Lefeuvre, R.A., Aisenthal, L. and Rothwell, N.J. (1991). Involvement of corticotropin-releasing factor (CRF) in the thermogenic and anorectic actions of serotonin (5-HT) and related compounds. Brain Research 555, 245–250.
  • Lefeuvre, R.A., Rothwell, N.J. and Stock, M.J. (1987). Activation of brown fat thermogenesis in response to central injection of CRF in the rat. Neuropharmacology 26, 1217–1221.
  • Lenz, H.J., Raedler, A., Greten, H., Vale, W.W. and Rivier, J.E. (1988). Stress-induced gastrointestinal secretory and motor responses in rats are mediated by endeogenous corticotropin-releasing factor. Gastroentorology 95, 1510–1517.
  • Levine, A.S., Rogers, B., Kreip, J., Crane, M. and Morley, J.E. (1983). The effect of centrally administered corticotropin releasing factor (CRF) in multiple feeding paradigm. Neuropharmacology 22, 337–339.
  • Levitsky, D.A., Strupp, R.J. and Lupoli, J. (1981). Tolerance to anorectic drugs: pharmacological or artefactual. Pharmacology Biochemistry and Behavior 14, 661–667.
  • Makino, S., Nishiyama, M., Asaba, K., Gold, P.W. and Hashimoto, K. (1998). Altered expression of type 2 CRH receptor mRNA in the VMH by glucocorticoids and starvation. American Journal of Physiology 275, R1138–R1145.
  • Marchington, D., Rothwell, N.J., Stock, M.J. and York, D.A. (1983). Energy balance, diet induced thermogenesis and brown adipose tissue in lean and obese (fa/fa) Zucker rats after adrenalectomy. Journal of Nutrition 113, 1395–1402.
  • Marchington, D., Rothwell, N.J., Stock, M.J. and York, D.A. (1986). Thermogenesis and sympathetic activity in brown adipose tissue of overfed rats after adrenalectomy. American Journal of Physiology 250, E362–E366.
  • Martin, D., Merkel, E., Tucker, K.K., McManaman, J.L., Albert, D., Relton, J. and Russel, D.A. (1996). Cachectic effect of ciliary neurotropic factor on innervated skeletal muscle. American Journal of Physiology 271, R1422–R1428.
  • Martinez, J.A. and Buéno, L. (1991). Busbirone inhibits corticotropin-releasing factor and stress-induced ceacal motor response in rats by acting through 5-HT1A receptors. European Journal of Pharmacology 202, 379–383.
  • Martinez, V., Rivier, J., Wang, L. and Taché, Y. (1997). Central injection of a new corticotropin-releasing factor (CRF) antagonist, astressin, blocks CRF- and stress-related alterations of gastric and colonic motor function. Journal de Pharmacologie experimentale et de Therapeutique 280, 754–760.
  • McCarthy, D.O., Kluger, M.J. and Vander, A.J. (1985). The role of interleukin-1 in the suppression of food intake during infection. American Journal of Clinical Nutrition 42, 1179–1182.
  • Michel, C. and Cabanac, M. (1999a). Lipectomy, body weight, and body weight set-point in rats. Physiology and Behavior 66, 473–479.
  • Michel, C. and Cabanac, M. (1999b). Gentle handling raises the thermoregulatory set-point and lowers the body weight set-point in rats. Physiology and Behavior (accepted for publication).
  • Michel, C. and Cabanac, M. (1999c). Effects of dexamethasone on the body weight set-point of rats. Physiology and Behavior (in press).
  • Miell, J.P., Englaro, P. and Blum, W.F. (1996). Dexamethasone induces an acute and sustained rise in circulating leptin levels in normal human subjects. Hormones and metabolic Research 28, 704–707.
  • Moldawer, L.L., Anderson, C, Gelin, J. and Lundholm, K.G. (1988). Regulation of food intake and hepatic protein synthesis by recombinant-derived cytokines. American Journal of Physiology 254, G450–G456.
  • Mönnikes, H., Schmidt, B.G. and Taché, Y. (1993). Psychological stress-induced acclerated colonic transit in rats involves hypothalamic corticotropin-releasing factor. Gastroenterology 104, 716–723.
  • Mook, D.G., Kennedy, N.J., Robert, S., Nussbaum, A.I. and III, W.I.R. (1972). Overian-adrenal interactions in regulation of body weight by female rats. Journal of Comparative and Physiological Psychology 81, 198–211.
  • Morimoto, A., Murakami, N., Nakamori, T., Sakata, Y. and Watanabe, T. (1989). Possible involvement of prostaglandin E in development of ACTH response in rats induced by human recombinant interleukin-1. Journal of Physiology London 411, 245–256.
  • Morimoto, A., Nakamori, T., Morimoto, K., Tan, N. and Murakami, N. (1993). The central role of corticotrophin-releasing factor (CRF-41) in psychological stress in rats. Journal of Physiology London 460, 221–229.
  • Morimoto, A., Watanabe, T., Morimoto, K., Nakamori, T. and Murakami, N. (1991). Possible involvement of prostaglandins in psychological stress-induced responses in rats. Journal of Physiology London 443, 421–429.
  • Morimoto, K., Morimoto, A., Nakamori, T., Tan, T., Mingawa, T. and Murakami, N. (1992). Cardiovascular responses induced in free-moving rats by immune cytokines. Journal of Physiology London 448, 307–320.
  • Morley, J.E. (1995). The role of peptides in appetite regulation across species. American Zoologist 35, 437–445.
  • Morley, J.E. and Levine, A.S. (1982). Corticotrophin-releasing factor, grooming and investigative behavior. Life Sciences 31, 1459–1464.
  • Murakami, K., Akana, S., Dallman, M.F. and Ganong, W.F. (1989). Correlation between the stress-induced transient increase in corticotrophin-releasing hormone content of the median eminence of the hypothalamus and adrenocorticotropic hormone secretion. Neuroendocrinology 49, 263–241.
  • Murakami, T., Ida, M. and Shima, K. (1995). Dexametasone regulates obese expression in isolated rat adipocytes. Biochemistry and Biophysics Research Communications 214, 1260–1267.
  • Oscai, L.B. (1973). The role of exercise in weight control. In J.L. Wilmore (Ed.), Exercise and Sport Sciences Reviews (Vol. 1, pp. 103–123). New York: Academic Press.
  • Ouerghi, D., Rivest, S. and Richard, D. (1992). Adrenalectomy attenuates the effect of chemical castration on energy balance in rats. Journal of Nutrition 122, 369–373.
  • Owens, M.J. and Nemeroff, C.B. (1991). Physiology and pharmacology of corticotropin-releasing factor. Pharmacological Reviews 43, 425–473.
  • Palacios, E., Piñon-López, M.J., Racotta, I.S. and Racotta, R. (1995). Effect of lipectomy and long-term dexamethasone on visceral fat and metabolic variables in rats. Metabolism 44, 1631–1638.
  • Pelleymounter, M.A., Cullen, M.J., Baker, M.B., Hecht, R., Winters, D., Boone, T. and Collins, F. (1995). Effects of the obese gene product on body weight regulation in ob/ob mice. Science 269, 540–543.
  • Plata-Salaman, C.R. (1989). Immunomodulators and feeding regulation: a humoral link between the immune and nervous systems. Brain Behav. Immunity, 3, 193–213.
  • Plotsky, P.M. (1991). Pathways to the secretion of adrenocorticotropin: a view from the portal. Journal of Neuroendocrinology 3, 1–9.
  • Plotsky, P.M. and Sawchenko, P.E. (1987). Hypophysial-portal plasma levels, median eminence content, and IHC staining of CRF, AVP, and OXT after pharmacological adrenalectomy. Endocrinology 120, 1361–1369.
  • Rebuffé-Scrive, M., Krotkiewsky, M., Elfverson, J. and Björntorp, P. (1988). Muscle and adipose tissue morphology and metabolism in Cushing's syndrome. Journal of Clinical Endocrinology and Metabolism 67, 1122–1128.
  • Rebuffé-Scrive, M., Walsch, U.A., McEwen, B. and Rodin, J. (1992). Effect of chronic stress and exogenous glucocorticoids on regional fat distribution and metabolism. Physiology and Behavior 56, 583–590.
  • Reul, B.A., Ongemba, L.N., Pothier, A.M., Henguin, J.C. and Brichard, S.M. (1997). Insulin and insulin-like growth factor I antagonize the stimulation of ob gene expression by dexamethasone in cultured rat adipose tissue. Biochemical Journal 324, 605–610.
  • Richard, D. (1993). Involvement of corticotropin-releasing factor in the control of food intake and energy expenditure. Annals of New York Academy of Sciences 697, 155–172.
  • Richard, D. (1998). Le role du système à corticolibéacuterine dans la régulation du bilan d'énergie. Médecine Science 14, 877–888.
  • Richard, D. and Arnold, J. (1987). Influence of exercise training in the regulation of energy balance. Journal of Obesity and Weight Regulation 6, 211–224.
  • Richard, D., Arnold, J. and LeBlanc, J. (1986). Energy balance in exercise-trained rats acclimated at two environmental temperatures. Journal of applied Physiology 60, 1054–1059.
  • Richard, D. and Rivest, S. (1989). The rôle of exercise in thermogenesis and energy balance. Canadian Journal of Physiology and Pharmacology 67, 402–409.
  • Rivest, S. and Richard, D. (1989). The effects of corticotropin-releasing factor on energy balance in rats are sex-dependent. American Journal of Physiology 257, R1417–R1422.
  • Rivest, S. and Richard, D. (1990). Involvement of corticotropin-releasing factor in the anorexia induced by exercise. Brain Research Bulletin 25, 169–172.
  • Rivier, C. and Plotsky, P.M. (1986). Mediation by corticotropin releasing factor (CRF) of adenohypophyseal hormone secretion. Annual Review of Physiology 48, 475–494.
  • Rothwell, N.J. (1989). CRF is involved in the pyrogenic and thermogenic effects of interleukin-1β in the rat. American Journal of Physiology 256, E111–E115.
  • Rothwell, N.J. (1990). Central effects of CRF on metabolism and energy balance. Neuroscience and Biobehavioral Reviews 14, 263–271.
  • Ruckebusch, Y. and Malbert, C.H. (1986). Stimulation and inhibition of food intake in sheep by centrally-administered hypothalamic releasing factors. Life Sciences 38, 929–934.
  • Sawchenko, P.E., Swanson, L.W. and Vale, W.W. (1984). Co-expression of corticotropin-releasing factor and vasopressin immunoreactivity in parvocellular neurosecretory neurons of the adrenalectomized rat. Proceedings of the National Academy of Sciences USA 81, 1877–1883.
  • Schettini, G., Quatrone, M., Gianfranco, D.R. and Preziosi, P. (1979). Effect of selective degeneration of brain serotonin-containing neurons on plasma corticosterone levels: studies with D-fenfluramine. Pharmacological Research and Communications 11, 545–553.
  • Singh, S.B., Sharma, A., Panjwani, U., Yadav, D.K., Chandra, K., Sharma, K.N. and Selvamurthy, W. (1997). Hypobaric hypoxia and hedonoic matrix in rats. Japanese Journal of Physiology 47, 327–333.
  • Slieker, L.J., Sloop, K.W., Surface, P.L., Kriauciunas, A., LaQuier, F., Manetta, J., BueVallesky, J. and Stephens, T.W. (1996). Regulation of expression of ob mRNA and protein by glucocorticoids and cAMP. Journal of Biological Chemistry 10, 5301–5304.
  • Staten, M.A. (1991). The effect of exercise on food intake in men and women. American Journal of Clinical Nutrition 53, 27–31.
  • Stunkard, A.J. (1982). Anorectic agent lowers a body weight set-point. Life Sciences 30, 2043–2055.
  • Stupnicki, R. and Obminski, Z. (1992). Glucocorticoid response to exercise as measured by serum and salivary cortisol. European Journal of applied Physiology 65, 546–549.
  • Sütõ, G., Kiracutely, A. and Taché, Y. (1994). Interleukin-1β inhibits gastric emptying in rats: mediation through prostaglandin and corticotropin-releasing factor. Gastroenterology 106, 1568–1574.
  • Thompson, D.A., Wolfe, L.A. and Eikelboom, R. (1988). Acute effects of exercise intensity on appetite in young men. Medicine and Science in Sports and Exercise 20, 222–227.
  • Timofeeva, E. and Richard, D. (1997). Functional activation of CRH neurons and expression of the genes encoding CRH and its receptors in food-deprived lean (Fa/?) and obese (fa/fa) Zucker rats, Neuroendocrinology 66, 327–340.
  • Uehara, A., Ishikawa, Y., Okumura, T., Okamura, K., Sekiya, C., Takasugi, Y. and Namiki, M. (1989a). Indomethacin blocks the anorexic action of interleukin-1. European Journal of Pharmacology 170, 257–260.
  • Uehara, A., Sekiya, C., Takasugi, Y., Namiki, M. and Arimura, A. (1989b). Anorexia induced by interleukin-1: involvement of corticotropin-releasing factor. American Journal of Physiology 257, R613–R617.
  • vanLeeuwen, S.D., Bonne, O.B., Avraham, Y. and Berry, E.M. (1997). Separation as a new animal model for self-induced weight loss. Physiology and Behavior 62, 77–81.
  • Watanabe, T., Morimoto, A. and Murakami, N. (1991). ACTH response in rats during biphasic fever induced by interleukin-1. American Journal of Physiology 261, R1104–R1108.
  • Wood, A.D. (1996). Food deprivation-induced increases in hoarding by Siberian hamsters are not photoperiod-dependent. Physiology and Behavior 60, 1137–1145.
  • Wood, A.D. and Bartness, T.J. (1997). Partial lipectomy, but not PVN lesions, increases food hoarding by Siberian hamsters. American Journal of Physiology 41, R783–R792.
  • Xu, B., Dube, M.G., Kalra, P.S., Farmerie, W.G., Kaibara, A., Moldawer, L.L., Martin, D. and Kalra, S.P. (1988). Anorectic effects of the cytokine, ciliary neurotropic factor, are mediated by hypothalamic neuropeptide Y: comparison with leptin. Endocrinology 139, 466–473.
  • York, D.A. (1992). Central regulation of appetite and autonomic activity by CRH, glucocorticoids and stress. Progress in Neuroendocrin Immunology 5, 153–165.
  • Young, E.A., Kwak, S.P. and Kottak, J. (1995). Negative feedback regulation following administration of chronic exogenous corticosterone. Journal of Endocrinology 7, 37–45.
  • Yukimora, Y., Bray, G.A. and Wolfsen, A.R. (1978). Some effects of adrenalectomy in the fattv rat. Endocrinology 103, 1924–1928.

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